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https://github.com/thestk/stk
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102 lines
2.5 KiB
C++
102 lines
2.5 KiB
C++
// bethree.cpp STK tutorial program
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#include "BeeThree.h"
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#include "RtAudio.h"
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// The TickData structure holds all the class instances and data that
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// are shared by the various processing functions.
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struct TickData {
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Instrmnt *instrument;
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StkFloat frequency;
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StkFloat scaler;
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long counter;
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bool done;
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// Default constructor.
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TickData()
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: instrument(0), scaler(1.0), counter(0), done( false ) {}
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};
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// This tick() function handles sample computation only. It will be
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// called automatically when the system needs a new buffer of audio
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// samples.
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int tick( void *outputBuffer, void *inputBuffer, unsigned int nBufferFrames,
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double streamTime, RtAudioStreamStatus status, void *userData )
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{
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TickData *data = (TickData *) userData;
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register StkFloat *samples = (StkFloat *) outputBuffer;
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for ( unsigned int i=0; i<nBufferFrames; i++ ) {
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*samples++ = data->instrument->tick();
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if ( ++data->counter % 2000 == 0 ) {
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data->scaler += 0.025;
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data->instrument->setFrequency( data->frequency * data->scaler );
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}
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}
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if ( data->counter > 80000 )
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data->done = true;
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return 0;
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}
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int main()
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{
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// Set the global sample rate and rawwave path before creating class instances.
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Stk::setSampleRate( 44100.0 );
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Stk::setRawwavePath( "../../rawwaves/" );
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TickData data;
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RtAudio dac;
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// Figure out how many bytes in an StkFloat and setup the RtAudio stream.
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RtAudio::StreamParameters parameters;
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parameters.deviceId = dac.getDefaultOutputDevice();
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parameters.nChannels = 1;
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RtAudioFormat format = ( sizeof(StkFloat) == 8 ) ? RTAUDIO_FLOAT64 : RTAUDIO_FLOAT32;
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unsigned int bufferFrames = RT_BUFFER_SIZE;
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try {
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dac.openStream( ¶meters, NULL, format, (unsigned int)Stk::sampleRate(), &bufferFrames, &tick, (void *)&data );
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}
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catch ( RtError& error ) {
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error.printMessage();
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goto cleanup;
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}
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try {
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// Define and load the BeeThree instrument
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data.instrument = new BeeThree();
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}
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catch ( StkError & ) {
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goto cleanup;
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}
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data.frequency = 220.0;
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data.instrument->noteOn( data.frequency, 0.5 );
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try {
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dac.startStream();
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}
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catch ( RtError &error ) {
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error.printMessage();
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goto cleanup;
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}
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// Block waiting until callback signals done.
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while ( !data.done )
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Stk::sleep( 100 );
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// Shut down the callback and output stream.
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try {
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dac.closeStream();
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}
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catch ( RtError &error ) {
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error.printMessage();
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}
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cleanup:
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delete data.instrument;
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return 0;
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}
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